Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives

Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives

Despite the increasing interest in developing antimethanogenic additives to reduce enteric methane (CH4) emissions and the extensive research conducted over the last decades, the global livestock industry has a very limited number of antimethanogenic feed additives (AMFA) available that can deliver substantial reduction, and they have generally not reached the market yet. This work provides technical recommendations and guidelines for conducting tests intended to screen the potential to reduce, directly or indirectly, enteric CH4 of compounds before they can be further assessed in in vivo conditions. The steps involved in this work cover the discovery, isolation, and identification of compounds capable of affecting CH4 production by rumen microbes, followed by in vitro laboratory testing of potential candidates. The finding of new bioactive compounds as AMFA can be based on 2 approaches: empirical and mechanistic. The empirical approach involves obtaining and screening compounds present in databases and repositories that potentially possess the desired effect but have not yet been tested, screening natural sources of secondary compounds such as plants, fungi, and algae for their antimethanogenic effects, or examining compounds with antimethanogenic effect on microbes in other research domains outside the rumen. In contrast, the mechanistic approach is the theoretical process of discovery new bioactive compounds based on existing knowledge of a biological target or process. The in vitro methodologies reviewed include examining effects at the subcellular level, in single pure cultures of methanogens and examining in more complex mixed rumen microbial populations. Simple in vitro methodologies (subcellular assessments and batch culture) allow testing a large number of compounds, whereas more complex systems simulating the rumen microbial ecosystem can test a limited number of candidates but provide better insight about the antimethanogenic efficacy. This work collated the main advantages, limitations, and technical recommendations associated with each step and methodology use during the identification and screening of AMFA candidates.

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Main Authors: Durmic, Zoey, Duin, Evert C., Bannink, André, Belanche, Alejandro, Carbone, Vincenzo, Carro, M.D., Crüsemann, Max, Fievez, Veerle, Garcia, Florencia, Hristov, Alex, Joch, Miroslav, Martinez-Fernandez, Gonzalo, Muetzel, Stefan, Ungerfeld, Emilio M., Wang, Min, Yáñez-Ruiz, David R.
Format: Article/Letter to editor biblioteca
Language:English
Subjects:docking, in silico, in vitro, methane, rumen,
Online Access:https://research.wur.nl/en/publications/feed-additives-for-methane-mitigation-recommendations-for-identif
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spelling dig-wur-nl-wurpubs-6396952025-01-19 Durmic, Zoey Duin, Evert C. Bannink, André Belanche, Alejandro Carbone, Vincenzo Carro, M.D. Crüsemann, Max Fievez, Veerle Garcia, Florencia Hristov, Alex Joch, Miroslav Martinez-Fernandez, Gonzalo Muetzel, Stefan Ungerfeld, Emilio M. Wang, Min Yáñez-Ruiz, David R. Article/Letter to editor Journal of Dairy Science 108 (2025) 1 ISSN: 0022-0302 Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives 2025 Despite the increasing interest in developing antimethanogenic additives to reduce enteric methane (CH4) emissions and the extensive research conducted over the last decades, the global livestock industry has a very limited number of antimethanogenic feed additives (AMFA) available that can deliver substantial reduction, and they have generally not reached the market yet. This work provides technical recommendations and guidelines for conducting tests intended to screen the potential to reduce, directly or indirectly, enteric CH4 of compounds before they can be further assessed in in vivo conditions. The steps involved in this work cover the discovery, isolation, and identification of compounds capable of affecting CH4 production by rumen microbes, followed by in vitro laboratory testing of potential candidates. The finding of new bioactive compounds as AMFA can be based on 2 approaches: empirical and mechanistic. The empirical approach involves obtaining and screening compounds present in databases and repositories that potentially possess the desired effect but have not yet been tested, screening natural sources of secondary compounds such as plants, fungi, and algae for their antimethanogenic effects, or examining compounds with antimethanogenic effect on microbes in other research domains outside the rumen. In contrast, the mechanistic approach is the theoretical process of discovery new bioactive compounds based on existing knowledge of a biological target or process. The in vitro methodologies reviewed include examining effects at the subcellular level, in single pure cultures of methanogens and examining in more complex mixed rumen microbial populations. Simple in vitro methodologies (subcellular assessments and batch culture) allow testing a large number of compounds, whereas more complex systems simulating the rumen microbial ecosystem can test a limited number of candidates but provide better insight about the antimethanogenic efficacy. This work collated the main advantages, limitations, and technical recommendations associated with each step and methodology use during the identification and screening of AMFA candidates. en application/pdf https://research.wur.nl/en/publications/feed-additives-for-methane-mitigation-recommendations-for-identif 10.3168/jds.2024-25045 https://edepot.wur.nl/684549 docking in silico in vitro methane rumen https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic docking
in silico
in vitro
methane
rumen
docking
in silico
in vitro
methane
rumen
spellingShingle docking
in silico
in vitro
methane
rumen
docking
in silico
in vitro
methane
rumen
Durmic, Zoey
Duin, Evert C.
Bannink, André
Belanche, Alejandro
Carbone, Vincenzo
Carro, M.D.
Crüsemann, Max
Fievez, Veerle
Garcia, Florencia
Hristov, Alex
Joch, Miroslav
Martinez-Fernandez, Gonzalo
Muetzel, Stefan
Ungerfeld, Emilio M.
Wang, Min
Yáñez-Ruiz, David R.
Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives
description Despite the increasing interest in developing antimethanogenic additives to reduce enteric methane (CH4) emissions and the extensive research conducted over the last decades, the global livestock industry has a very limited number of antimethanogenic feed additives (AMFA) available that can deliver substantial reduction, and they have generally not reached the market yet. This work provides technical recommendations and guidelines for conducting tests intended to screen the potential to reduce, directly or indirectly, enteric CH4 of compounds before they can be further assessed in in vivo conditions. The steps involved in this work cover the discovery, isolation, and identification of compounds capable of affecting CH4 production by rumen microbes, followed by in vitro laboratory testing of potential candidates. The finding of new bioactive compounds as AMFA can be based on 2 approaches: empirical and mechanistic. The empirical approach involves obtaining and screening compounds present in databases and repositories that potentially possess the desired effect but have not yet been tested, screening natural sources of secondary compounds such as plants, fungi, and algae for their antimethanogenic effects, or examining compounds with antimethanogenic effect on microbes in other research domains outside the rumen. In contrast, the mechanistic approach is the theoretical process of discovery new bioactive compounds based on existing knowledge of a biological target or process. The in vitro methodologies reviewed include examining effects at the subcellular level, in single pure cultures of methanogens and examining in more complex mixed rumen microbial populations. Simple in vitro methodologies (subcellular assessments and batch culture) allow testing a large number of compounds, whereas more complex systems simulating the rumen microbial ecosystem can test a limited number of candidates but provide better insight about the antimethanogenic efficacy. This work collated the main advantages, limitations, and technical recommendations associated with each step and methodology use during the identification and screening of AMFA candidates.
format Article/Letter to editor
topic_facet docking
in silico
in vitro
methane
rumen
author Durmic, Zoey
Duin, Evert C.
Bannink, André
Belanche, Alejandro
Carbone, Vincenzo
Carro, M.D.
Crüsemann, Max
Fievez, Veerle
Garcia, Florencia
Hristov, Alex
Joch, Miroslav
Martinez-Fernandez, Gonzalo
Muetzel, Stefan
Ungerfeld, Emilio M.
Wang, Min
Yáñez-Ruiz, David R.
author_facet Durmic, Zoey
Duin, Evert C.
Bannink, André
Belanche, Alejandro
Carbone, Vincenzo
Carro, M.D.
Crüsemann, Max
Fievez, Veerle
Garcia, Florencia
Hristov, Alex
Joch, Miroslav
Martinez-Fernandez, Gonzalo
Muetzel, Stefan
Ungerfeld, Emilio M.
Wang, Min
Yáñez-Ruiz, David R.
author_sort Durmic, Zoey
title Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives
title_short Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives
title_full Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives
title_fullStr Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives
title_full_unstemmed Feed additives for methane mitigation : Recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives
title_sort feed additives for methane mitigation : recommendations for identification and selection of bioactive compounds to develop antimethanogenic feed additives
url https://research.wur.nl/en/publications/feed-additives-for-methane-mitigation-recommendations-for-identif
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